Environmental Engineering Reference
In-Depth Information
Liebich,J.,Schäffer,A.,andBurauel,P.2003.Structuralandfunctionalapproachtostudyingpesti-
cideside-effectsonspeciicsoilfunctions.
Environ. Toxicol. Chem.
22(4):784-790.
Mahalakshmi,M.,Arabindoo,B.,Palanichamy,M.,andMurugesan,V.2007.Photocatalyticdegrada-
tionofcarbofuranusingsemiconductoroxides.
J. Hazard. Mater.
143:240-245.
Malato,S.,Blanco,J.,Richter,C.,Milow,B.,andMaldonado,M.I.1999.Solarphotocatalyticmineral-
izationofcommercialpesticides:Methamidophos.
Chemosphere
38(5):1145-1156.
Malato,S.,Blanco,J.,Fernández-Alba,A.R.,andAgüera,A.2000.Solarphotocatalyticmineraliza-
tionofcommercialpesticides:Acrinathrin.
Chemosphere
40:403-409.
Malone,R.W.,Ma,L.,DonWauchope,R.,etal.2004.Modelinghydrology,metribuzindegradation
andmetribuzintransportinmacroporoustilledandno-tillsiltloamsoilusingRZWQM.
Pest
Manag. Sci.
60:253-266.
Mamy,L.andBarriuso,E.2007.Desorptionandtime-dependentsorptionofherbicidesinsoils.
Eur.
J. Soil Sci.
58:174-187.
Mandelbaum, R. T., Wackett, L. R., andAllan, D. L. 1993. Mineralization of the s-triazine ring of
atrazinebystablebacterialmixedcultures.
Appl. Environ. Microbiol.
59:1695-1701.
Martínez-Íñigo, M. J., Lobo M. C., Garbi, C., and Martin, M. 2003. Applicability of luorescence
in
situ
hybridizationtomonitortargetbacteriainsoilsamples.In:DelRe,A.A.M.,Capri,E.,
Padovani,L.,LaGoliardicaPavese,T.M.(eds),
Proceeding of XII Symposium Pesticide Chemistry
,
pp.609-615,Piacenza,Italy,4-6June.Italy.
Masson,P.,Josse,D.,Lockridge,O.,Vigule,N.,Taupin,C.,andBuhler,C.1998.Enzymeshydrolyz-
ingorganophosphatesaspotentialcatalyticscavengersagainstorganophosphatespoisoning.
J. Physiol. Paris
92:357-362.
Mathews,R.W.1988.Kineticsofphotocatalyticoxidationoforganicsolutesovertitaniumdioxide
catalysis.
J. Catal.
111:264-272.
Mendoza-Cantú, A., Albores, A., Fernández-Linares, L., and Rodriguez-Vázquez, R. 2000.
Pentachlorophenol biodegradation and detoxiication by the white-rot fungus
Phanerochaete
chrysosporum
.
Environ. Toxicol.
15:107-113.
Menon,P.andGopal,M.2003.Dissipationof
14
Ccarbarylandquinalphosinsoilunderagroundnut
crop(
Arachis hypogaea
L.)insemi-aridIndia.
Chemosphere
53:1023-1031.
Mills, M. S., Hill, I. R., Newcombe,A. C., Simmons, N. D., Vaughan, P. C., and Verity,A.A. 2001.
Quantiicationofacetochlordegradationintheunsaturatedzoneusingtwonovel
in situ
ield
techniques: Comparisons with laboratory-generated data and implications for groundwater
riskassessments.
Pest Manag. Sci.
57:351-359.
MOSES.
http://projects-2004.jrc.cec.eu.int/
.
Mullins,J.A.,Carsel,R.F.,Scarbrough,J.E.,andIvery,A.M.1993.PRZM-2,amodelforpredicting
pesticidefateinthecroprootandunsaturatedsoilzones:Usersmanualforrelease2.0.USEPA,
Athens,GA.
Muneer,M.,Qamar,M.,Saquib,M.,andBahnemann,D.2005.Heterogenousphotocatalysedreac-
tionofthreeselectedpesticidederivatives,propham,propachlorandtebuthiuroninaqueous
suspensionsoftitaniumdioxide.
Chemosphere
61:457-468.
Navarro,S.,Vela,N.,Giménez,M.J.,andNavarro,G.2004.Persistenceoffour
s
-triazineherbicides
in river, sea and groundwater samples exposed to sunlight and darkness under laboratory
conditions.
Sci. Total Environ.
329:87-97.
Navarro,S.,Fenoll,J.,Vela,N.,Ruiz,E.,andNavarro,G.2009.Photocatalyticdegradationofeightpes-
ticidesinleachingwaterbyuseofZnOundernaturalsunlight.
J. Hazard. Mater.
172:1303-1310.
Ning, J., Bai, Z., Gang, G., et al. 2010. Functional assembly of bacterial communities with activity
for the biodegradation of an organophosphorus pesticide in the rape phyllosphere.
FEMS
Microbiol. Lett.
306:135-143.
Noegrohati,S.andHammers,W.E.1992.Regressionmodelsforsomesolutedistributionequilibria
intheterrestrialenvironment.
Toxicol. Environ. Chem.
34:175-185.
Noegrohati,S.,Hadi,N.,andSanjayadi,S.2008.Fateandbehavioroforganochlorinepesticidesin
theIndonesiantropicalclimate:AstudyintheSegaraAnakanEstuarineecosystem.
Clean
36(9):
767-774.
Search WWH ::
Custom Search